The aim of this study was to determine whether flow cytometric evaluation of combined merocyanine 540 and Yo-Pro 1 (M540-YP) staining would identify viable dog sperm that had undergone membrane stabilization known to be associated with capacitation in other species, and whether such destabilization is detected earlier than when using ... read more the tyrosine phosphorylation and ethidium homodimer (TP-EH) stain combination with epifluorescence microscopy. Semen from nine dogs was collected and incubated in parallel in bicarbonate-free modified Tyrode's medium (-BIC), medium containing 15 mM bicarbonate (+BIC), dog prostatic fluid, and in PBS. Aliquots for staining were removed at various time points during incubation of up to 6 hours. Staining with M540-YP allowed the classification of dog sperm as viable without destabilized membranes, viable with destabilized membranes, nonviable without destabilized membranes, or nonviable with destabilized membranes. The percentage of viable sperm detected using EH (83.5 ± 1.37%; mean ± SEM) was higher than when using YP (66.7 ± 1.37%: P < 0.05; n = 54 semen samples). On the other hand, M540-YP identified a higher percentage of viable sperm with destabilized membranes than TP-EH (75 ± 1.76% vs. 35 ± 1.70%: P < 0.05; n = 54 semen samples). Staining with M540-YP indicated a rapid increase in the percentage of viable sperm with destabilized membranes, reaching a maximum during the first 30 minutes of incubation in +BIC. For all other treatments (i.e., -BIC, prostatic fluid, and PBS), the peak in the percentage of viable sperm with destabilized membranes was reached as much as 90 to 210 minutes later than incubation in +BIC. The lowest percentage of viable sperm showing signs of capacitation was recorded during incubation in PBS. We conclude that YP identifies sperm committed to cell death earlier than EH, and that the M540-YP stain combination identifies membrane destabilization known to be associated with capacitation in other species earlier than the TP-EH stain combination. show less

Download/Full Text

An Open Access version of this item is not available due to the copyright policy of the publisher.